The availability of water is one of the most important factors that determines the number and kinds of organisms that live in an area.
Approximately 1% of the world's water is available for use by terrestrial organisms, with the majority of it being found in freshwater sources such as rivers, lakes, and underground aquifers. The rest of the Earth's water is saltwater or locked in ice caps and glaciers.
When too many organisms occupy a specific area, they can quickly deplete the available resources, such as food, water, and shelter. This overpopulation can lead to competition among species, resulting in stress, reduced growth rates, and increased mortality. Ultimately, if the resource depletion continues, it can trigger a population decline or even local extinction as organisms struggle to survive in an unsustainable environment. This phenomenon highlights the importance of balancing population sizes with available resources to maintain ecosystem health.
The zone where there are not enough minerals in the water to support organisms is called the aphotic zone. This zone is located in the deep ocean where sunlight cannot penetrate, resulting in limited photosynthesis and therefore fewer minerals available for organisms.
Natural cycles, such as the water cycle and carbon cycle, are crucial for maintaining the balance of nutrients and energy within ecosystems. They provide essential resources for organisms to survive and thrive, such as clean water, oxygen, and nutrients. Disruption of these cycles can have negative impacts on the health and sustainability of ecosystems and organisms within them.
If you mean organisms that live in water, then that will affect the ecosystem because some organisms won't have the dead organisms that they used to feed on, which will cause their death. On the other hand, if you mean the death of organisms that live on land in water, then that will affect the water, and will probably make it contaminated, which will cause the death of the organisms that drink the contaminated water.
a litte over 1% is available to humans and other organisms.
three percent of all the earths water is fresh water
cheesey toothe picks
Water is an essential component for the survival of organisms. Some of its importance include: being a universal solvent, involved in almost all biochemical processes in the body, and its thermal properties are suitable to support life.
Maybe it is- or maybe not. Water can contain organisms that cause disease- and you can't see them. Treat the water to be sure.
art is history ..btw one direction whooo
art is history ..btw one direction whooo
Approximately 1% of the world's water is available for use by terrestrial organisms, with the majority of it being found in freshwater sources such as rivers, lakes, and underground aquifers. The rest of the Earth's water is saltwater or locked in ice caps and glaciers.
The Ganges river is thought to be the mother of life. Water from the river is thought to have medicinal properties.
When too many organisms occupy a specific area, they can quickly deplete the available resources, such as food, water, and shelter. This overpopulation can lead to competition among species, resulting in stress, reduced growth rates, and increased mortality. Ultimately, if the resource depletion continues, it can trigger a population decline or even local extinction as organisms struggle to survive in an unsustainable environment. This phenomenon highlights the importance of balancing population sizes with available resources to maintain ecosystem health.
The zone where there are not enough minerals in the water to support organisms is called the aphotic zone. This zone is located in the deep ocean where sunlight cannot penetrate, resulting in limited photosynthesis and therefore fewer minerals available for organisms.
Natural cycles, such as the water cycle and carbon cycle, are crucial for maintaining the balance of nutrients and energy within ecosystems. They provide essential resources for organisms to survive and thrive, such as clean water, oxygen, and nutrients. Disruption of these cycles can have negative impacts on the health and sustainability of ecosystems and organisms within them.